An rTMS study into self-face recognition using video-morphing technique.

Self-face recognition is a sign of higher order self-awareness. Research into the neuronal network argues that the visual pathway of recognizing one's own face differs from recognizing others. The present study aimed at investigating the cortical network of self-other discrimination by producing virtual lesions over the temporo-parietal junction and the prefrontal cortex using low-frequency repetitive transcranial magnetic stimulation (rTMS) in a sham-controlled design. Frontal and parietal areas were stimulated separately in consecutive sessions one week apart in 10 healthy subjects. We designed a video-task comprising morphings of famous, unfamiliar and the subjects' own faces that transformed into each other over a time period of six seconds. Reaction time (RT) was measured by pushing a mouse-button once a change of identity was recognized. rTMS over the right temporo-parietal junction led to a decrease in RT when a subject's own face emerged from a familiar face; a similar effect was observed after rTMS over right-prefrontal and left-parietal cortices, when the subjects' ratings of own likeability were taken into account. The transition from an unfamiliar face to one's own face indicated a left frontal lateralization.

[1]  Kosha Ruparel,et al.  Neural substrates for functionally discriminating self‐face from personally familiar faces , 2006, Human brain mapping.

[2]  Thomas Nägele,et al.  The Role of Temporo-parietal Cortex in Subcortical Visual Extinction , 2010, Journal of Cognitive Neuroscience.

[3]  Jean Decety,et al.  When the self represents the other: A new cognitive neuroscience view on psychological identification , 2003, Consciousness and Cognition.

[4]  P. Benson,et al.  Recognizing one's own face , 2001, Cognition.

[5]  N. Brady,et al.  My left brain and me: a dissociation in the perception of self and others , 2004, Neuropsychologia.

[6]  Tokiko Harada,et al.  The role of the right prefrontal cortex in self-evaluation of the face: A functional magnetic resonance imaging study , 2008 .

[7]  Á. Pascual-Leone,et al.  Neurology: Self-recognition and the right hemisphere , 2001, Nature.

[8]  C. N. Macrae,et al.  Mike or me? Self-recognition in a split-brain patient , 2002, Nature Neuroscience.

[9]  V. Usov Expected high-frequency radiation from the 1.5-ms pulsar , 1983, Nature.

[10]  R. C. Oldfield The assessment and analysis of handedness: the Edinburgh inventory. , 1971, Neuropsychologia.

[11]  J. Decety,et al.  Motor cognition: a new paradigm to study self–other interactions , 2004, Current Opinion in Neurobiology.

[12]  Z. Nahas,et al.  Motor threshold in transcranial magnetic stimulation: a comparison of a neurophysiological method and a visualization of movement method. , 1998, The journal of ECT.

[13]  F. Bermpohl,et al.  Cortical midline structures and the self , 2004, Trends in Cognitive Sciences.

[14]  A. Young,et al.  Self‐recognition in everyday life , 2004, Cognitive neuropsychiatry.

[15]  D. Reiss,et al.  Mirror self-recognition in the bottlenose dolphin: A case of cognitive convergence , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[16]  Margot J. Taylor,et al.  Neural correlates of personally familiar faces: Parents, partner and own faces , 2009, Human brain mapping.

[17]  M. Buonocore,et al.  Remembering familiar people: the posterior cingulate cortex and autobiographical memory retrieval , 2001, Neuroscience.

[18]  Steven M. Platek,et al.  Neural correlates of self-face recognition: An effect-location meta-analysis , 2008, Brain Research.

[19]  A. Ishai,et al.  Effective connectivity within the distributed cortical network for face perception. , 2007, Cerebral cortex.

[20]  Istvan Molnar-Szakacs,et al.  Self-face recognition activates a frontoparietal “mirror” network in the right hemisphere: an event-related fMRI study , 2005, NeuroImage.

[21]  I. Fried,et al.  Lateralization of Deficit in Self‐Awareness of Memory in Patients with Intractable Epilepsy , 2004, Epilepsia.

[22]  O. Blanke,et al.  The Out-of-Body Experience: Disturbed Self-Processing at the Temporo-Parietal Junction , 2005, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[23]  Diana Reiss,et al.  Self-recognition in an Asian elephant , 2006, Proceedings of the National Academy of Sciences.

[24]  H. Keller,et al.  Developmental consequences of early parenting experiences: self-recognition and self-regulation in three cultural communities. , 2004, Child development.

[25]  R. Kawashima,et al.  Passive and Active Recognition of One's Own Face , 2000, NeuroImage.

[26]  Jan Theeuwes,et al.  You do not find your own face faster; you just look at it longer , 2009, Cognition.

[27]  Istvan Molnar-Szakacs,et al.  rTMS to the right inferior parietal lobule disrupts self-other discrimination. , 2006, Social cognitive and affective neuroscience.

[28]  A. Aleman,et al.  Self-reflection and the brain: A theoretical review and meta-analysis of neuroimaging studies with implications for schizophrenia , 2010, Neuroscience & Biobehavioral Reviews.

[29]  Maryse Lassonde,et al.  Self‐face processing in a callosotomy patient , 2003, The European journal of neuroscience.

[30]  M. Lewis,et al.  Self-representation and brain development. , 2008, Developmental psychology.

[31]  S. Aglioti,et al.  The body in the brain: neural bases of corporeal awareness , 1997, Trends in Neurosciences.

[32]  H. Topka,et al.  Motor thresholds in humans: a transcranial magnetic stimulation study comparing different pulse waveforms, current directions and stimulator types , 2001, Clinical Neurophysiology.

[33]  Georg Northoff,et al.  Self-referential processing in our brain—A meta-analysis of imaging studies on the self , 2006, NeuroImage.

[34]  M. Iacoboni,et al.  The self and social cognition: the role of cortical midline structures and mirror neurons , 2007, Trends in Cognitive Sciences.

[35]  T. Suddendorf,et al.  The evolution of primate visual self-recognition: evidence of absence in lesser apes , 2009, Proceedings of the Royal Society B: Biological Sciences.

[36]  Yasuhiro Maeda,et al.  Cortical mechanisms of visual self-recognition , 2005, NeuroImage.

[37]  G. Fink,et al.  Cerebral Representation of One’s Own Past: Neural Networks Involved in Autobiographical Memory , 1996, The Journal of Neuroscience.

[38]  G. Gallup Chimpanzees: Self-Recognition , 1970, Science.

[39]  M Coltheart,et al.  Mirrored-self Misidentification: Two Cases of Focal Onset Dementia , 2001, Neurocase.

[40]  S. Greenberg,et al.  Not all faces are processed equally: evidence for featural rather than holistic processing of one's own face in a face-imaging task. , 2009, Journal of experimental psychology. Learning, memory, and cognition.

[41]  Á. Pascual-Leone,et al.  Linking Out-of-Body Experience and Self Processing to Mental Own-Body Imagery at the Temporoparietal Junction , 2005, The Journal of Neuroscience.

[42]  B. Amsterdam,et al.  Mirror self-image reactions before age two. , 1972, Developmental psychobiology.

[43]  E. Torrey,et al.  Schizophrenia and the inferior parietal lobule , 2007, Schizophrenia Research.

[44]  Simon C Gandevia,et al.  Transcranial magnetic stimulation (TMS) in controlled treatment studies: are some “sham” forms active? , 2000, Biological Psychiatry.

[45]  O. Blanke,et al.  Neuropsychology: Stimulating illusory own-body perceptions , 2002, Nature.

[46]  A. Aleman Repetitive transcranial magnetic stimulation over the right dorsolateral prefrontal cortex a¡ects strategic decision-making , 2005 .

[47]  Á. Pascual-Leone,et al.  Transcranial magnetic stimulation: studying the brain-behaviour relationship by induction of 'virtual lesions'. , 1999, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[48]  F. Craik,et al.  In search of the emotional self: an fMRI study using positive and negative emotional words. , 2003, The American journal of psychiatry.

[49]  D. Rubin,et al.  Visual memory loss and autobiographical amnesia: a case study , 2005, Neuropsychologia.

[50]  M Gangitano,et al.  Segregation of areas related to visual working memory in the prefrontal cortex revealed by rTMS. , 2002, Cerebral cortex.

[51]  Á. Pascual-Leone,et al.  Self-recognition and the right prefrontal cortex , 2000, Trends in Cognitive Sciences.

[52]  G. Gallup,et al.  Where am I? The neurological correlates of self and other. , 2004, Brain research. Cognitive brain research.

[53]  Mascha van 't Wout,et al.  COGNITIVE NEUROSCIENCE AND NEUROPSYCHOLOGY NEUROREPORT Repetitive , 2005 .

[54]  O. Güntürkün,et al.  Mirror-Induced Behavior in the Magpie (Pica pica): Evidence of Self-Recognition , 2008, PLoS biology.

[55]  A. Aleman,et al.  Repetitive Transcranial Magnetic Stimulation over the Right Dorsolateral Prefrontal Cortex Disrupts Digit Span Task Performance , 2008, Neuropsychobiology.

[56]  G. G. Gallup,et al.  Self‐awareness and the emergence of mind in primates , 1982, American journal of primatology.

[57]  Rainer Goebel,et al.  Optimizing Functional Accuracy of TMS in Cognitive Studies: A Comparison of Methods , 2009, Journal of Cognitive Neuroscience.

[58]  M. Lewis The Emergence of Consciousness and Its Role in Human Development , 2003, Annals of the New York Academy of Sciences.

[59]  Á. Pascual-Leone,et al.  Left hand advantage in a self-face recognition task , 1999, Neuropsychologia.

[60]  T. Paus,et al.  Transcranial magnetic stimulation and the challenge of coil placement: A comparison of conventional and stereotaxic neuronavigational strategies , 2008, Human brain mapping.

[61]  Uwe Herwig,et al.  Using the International 10-20 EEG System for Positioning of Transcranial Magnetic Stimulation , 2004, Brain Topography.